0

I wonder how I could actually map an UInt16 value to a corresponding database type without a big fuzz.

We are working with Microsoft SQL Server Compact 3.5, NHibernate and FluentNHibernate for configuration.

Straight forward approach - will result in an error

public class Identificator
{
    public Identificator( ushort componentType, ushort componentID ) { ... }

    public virtual ushort ComponentType { get; protected set; }
    public virtual ushort ComponentID { get; protected set; }

    ...
}

public class IdentificatorMapping : ClassMap<Identificator>
{
    public IdentificatorMapping()
    {
        this.Map( x => x.ComponentType );
        this.Map( x => x.ComponentID );

        ...
    }
}

When actually creating a new object on the database ...

// Create Object
Identificator persistableObjectOK = new Identificator( 0x0001, 0x0001 );

// Persist it
ISession session = GetSession();
session.Save( persistableObjectOK );

... I'll get that error, which is OK, as SQL Server CE does not know unsigned types

FluentNHibernate.Cfg.FluentConfigurationException: An invalid or incomplete configuration was used while creating a SessionFactory. Check PotentialReasons collection, and InnerException for more detail.
System.ArgumentException: Dialect does not support DbType.UInt16

Using CustomSqlType - works partly

So, I went and forced NHibernate to take an integer which is 4 bytes long on the database and so should cover the data range of an UInt16

public class IdentificatorMapping : ClassMap<Identificator>
{
    public IdentificatorMapping()
    {
        this.Map( x => x.ComponentType ).CustomSqlType( "INTEGER" );
        this.Map( x => x.ComponentID ).CustomSqlType( "INTEGER" );

        ...
    }
}

The result is working ... as long as I stay below 32767! Above that value, the whole thing blows up.

The strange thing is that, up in the application it is unsigned 2 bytes. Down in the database it is signed 4 bytes.

Both should be sufficient to store up to 65536

However, NHibernate is not yet convinced. At some place down to the database it tries to convert UInt16 into Int16.

System.Convert.ToInt16(UInt16 value)
System.UInt16.System.IConvertible.ToInt16(IFormatProvider provider)
System.Data.SqlServerCe.Accessor.set_Value(Object value)
System.Data.SqlServerCe.SqlCeCommand.FillParameterDataBindings(Boolean verifyValue)
System.Data.SqlServerCe.SqlCeCommand.ExecuteCommand(CommandBehavior behavior, String method, ResultSetOptions options)
System.Data.SqlServerCe.SqlCeCommand.ExecuteNonQuery()
NHibernate.AdoNet.AbstractBatcher.ExecuteNonQuery(IDbCommand cmd)
NHibernate.Id.Insert.AbstractSelectingDelegate.PerformInsert(SqlCommandInfo insertSQL, ISessionImplementor session, IBinder binder)
NHibernate.Persister.Entity.AbstractEntityPersister.Insert(Object[] fields, Boolean[] notNull, SqlCommandInfo sql, Object obj, ISessionImplementor session)
NHibernate.Persister.Entity.AbstractEntityPersister.Insert(Object[] fields, Object obj, ISessionImplementor session)
NHibernate.Action.EntityIdentityInsertAction.Execute()
NHibernate.Engine.ActionQueue.Execute(IExecutable executable)
NHibernate.Event.Default.AbstractSaveEventListener.PerformSaveOrReplicate(Object entity, EntityKey key, IEntityPersister persister, Boolean useIdentityColumn, Object anything, IEventSource source, Boolean requiresImmediateIdAccess)
NHibernate.Event.Default.AbstractSaveEventListener.PerformSave(Object entity, Object id, IEntityPersister persister, Boolean useIdentityColumn, Object anything, IEventSource source, Boolean requiresImmediateIdAccess)
NHibernate.Event.Default.AbstractSaveEventListener.SaveWithGeneratedId(Object entity, String entityName, Object anything, IEventSource source, Boolean requiresImmediateIdAccess)
NHibernate.Event.Default.DefaultSaveOrUpdateEventListener.SaveWithGeneratedOrRequestedId(SaveOrUpdateEvent event)
NHibernate.Event.Default.DefaultSaveOrUpdateEventListener.EntityIsTransient(SaveOrUpdateEvent event)
NHibernate.Event.Default.DefaultSaveOrUpdateEventListener.PerformSaveOrUpdate(SaveOrUpdateEvent event)
NHibernate.Event.Default.DefaultSaveOrUpdateEventListener.OnSaveOrUpdate(SaveOrUpdateEvent event)
NHibernate.Impl.SessionImpl.FireSaveOrUpdate(SaveOrUpdateEvent event)
NHibernate.Impl.SessionImpl.SaveOrUpdate(String entityName, Object obj)
NHibernate.Engine.CascadingAction.SaveUpdateCascadingAction.Cascade(IEventSource session, Object child, String entityName, Object anything, Boolean isCascadeDeleteEnabled)
NHibernate.Engine.Cascade.CascadeToOne(Object child, IType type, CascadeStyle style, Object anything, Boolean isCascadeDeleteEnabled)
NHibernate.Engine.Cascade.CascadeAssociation(Object child, IType type, CascadeStyle style, Object anything, Boolean isCascadeDeleteEnabled)
NHibernate.Engine.Cascade.CascadeProperty(Object child, IType type, CascadeStyle style, Object anything, Boolean isCascadeDeleteEnabled)
NHibernate.Engine.Cascade.CascadeOn(IEntityPersister persister, Object parent, Object anything)
NHibernate.Event.Default.AbstractSaveEventListener.CascadeBeforeSave(IEventSource source, IEntityPersister persister, Object entity, Object anything)
NHibernate.Event.Default.AbstractSaveEventListener.PerformSaveOrReplicate(Object entity, EntityKey key, IEntityPersister persister, Boolean useIdentityColumn, Object anything, IEventSource source, Boolean requiresImmediateIdAccess)
NHibernate.Event.Default.AbstractSaveEventListener.PerformSave(Object entity, Object id, IEntityPersister persister, Boolean useIdentityColumn, Object anything, IEventSource source, Boolean requiresImmediateIdAccess)
NHibernate.Event.Default.AbstractSaveEventListener.SaveWithGeneratedId(Object entity, String entityName, Object anything, IEventSource source, Boolean requiresImmediateIdAccess)
NHibernate.Event.Default.DefaultSaveOrUpdateEventListener.SaveWithGeneratedOrRequestedId(SaveOrUpdateEvent event)
NHibernate.Event.Default.DefaultSaveEventListener.SaveWithGeneratedOrRequestedId(SaveOrUpdateEvent event)
NHibernate.Event.Default.DefaultSaveOrUpdateEventListener.EntityIsTransient(SaveOrUpdateEvent event)
NHibernate.Event.Default.DefaultSaveEventListener.PerformSaveOrUpdate(SaveOrUpdateEvent event)
NHibernate.Event.Default.DefaultSaveOrUpdateEventListener.OnSaveOrUpdate(SaveOrUpdateEvent event)
NHibernate.Impl.SessionImpl.FireSave(SaveOrUpdateEvent event)
NHibernate.Impl.SessionImpl.Save(Object obj)

Concrete question: how could I say NHibernate not to do this conversion, but convert from UIn16 to Int32 instead?

2 Answers 2

2

In analogy to this answer I created a user type that stores UInt16 in Int16. The trade-in is that the representation within the database may look wrong (i.e. shows a negative value) if we exceed 32K.

using System;
using NHibernate;
using NHibernate.SqlTypes;
using NHibernate.UserTypes;

public class UInt16UserType : IUserType
{
    public Object NullSafeGet( System.Data.IDataReader rs, String[] names, Object owner )
    {
        Int16? i = (Int16?) NHibernateUtil.Int16.NullSafeGet( rs, names[0] );
        return (UInt16?) i;
    }

    public void NullSafeSet( System.Data.IDbCommand cmd, Object value, int index )
    {
        UInt16? u = (UInt16?) value;
        Int16? i = (Int16?) u;
        NHibernateUtil.Int16.NullSafeSet( cmd, i, index );
    }

    public Type ReturnedType
    {
        get
        {
            return typeof(Nullable<UInt16>);
        }
    }

    public SqlType[] SqlTypes
    {
        get
        {
            return new SqlType[] {SqlTypeFactory.Int16};
        }
    }

    public Object Assemble( Object cached, Object owner )
    {
        return cached;
    }

    public Object DeepCopy( Object value )
    {
        return value;
    }

    public Object Disassemble( Object value )
    {
        return value;
    }

    public int GetHashCode( Object x )
    {
        return x.GetHashCode();
    }

    public bool IsMutable
    {
        get
        {
            return false;
        }
    }

    public Object Replace( Object original, Object target, Object owner )
    {
        return original;
    }

    public new bool Equals( Object x, Object y )
    {
        if (Object.ReferenceEquals( x, y ))
        {
            return true;
        }

        if (x == null || y == null)
        {
            return false;
        }

        if (!(x is UInt16 && y is UInt16))
        {
            return false;
        }

        UInt16 a = (UInt16) x;
        UInt16 b = (UInt16) y;

        bool result = a == b;

        return result;
    }
}
0

SQL Server (including CE) doesn't support unsigned types, so there is no valid type to convert to. The exception is byte / tinyint.

You could probably write a custom IUserType implementation to do the conversion for ushort and int but it would be much simpler to use int in your code.

See also: Does using small datatypes (for example short instead of int) reduce memory usage?

3
  • Using int is not quite an option. It would give me the "room" to store greater values, but would lead to misunderstandings when other people would use these classes. I would have to document that "there is an int, but please do only use 2 byte values"... So, I think I'll go for the user type, then.
    – Seven
    Mar 14, 2014 at 15:21
  • For background information: The data type is defined by an protocol, as "2 bytes unsigned"
    – Seven
    Mar 14, 2014 at 15:26
  • If half of UInt16.MaxValue which is what you get with Int16 is enough then you should go with @Seven 's solution, in other case you should switch to a DB that supports unsigned numerical.
    – user1413338
    Mar 17, 2014 at 18:36

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